The animal is thought to have fed by filtering particles from water actively pumped into its calyx through small holes. The stem ends with a small disc, which anchored the animal to the seafloor.

Siphusauctum lived in large clusters, as indicated by slabs containing over 65 individual specimens.

Lorna O’Brien, a PhD candidate in the Department of Ecology and Evolutionary Biology at the University of Toronto and her supervisor Jean-Bernard Caron, curator of invertebrate paleontology at the Royal Ontario Museum, report on the discovery in the journal PLoS ONE.

“Most interesting is that this feeding system appears to be unique among animals. Recent advances have linked many bizarre Burgess Shale animals as primitive members of many animal groups that are found today but Siphusauctum defies this trend. We do not know where it fits in relation to other organisms,” says lead author O’Brien.

“Our description is based on more than 1,100 fossil specimens from a new Burgess Shale locality that has been nicknamed the Tulip Beds,” adds O’Brien.

Located in Yoho National Park, British Columbia, the Tulip Beds were first discovered in 1983 by the Royal Ontario Museum. They are located high on Mount Stephen, overlooking the town of Field. Like the rest of the Burgess Shale, the Beds represent rock layers with exceptional preservation of mostly soft-bodied organisms.

The Burgess Shale, protected under the larger Rocky Mountain Parks UNESCO World Heritage site and managed by Parks Canada, preserves fossil evidence of some of the earliest complex animals that lived in the oceans of our planet nearly 505 million years ago.

The discovery of Siphusauctum expands the range of animal diversity that existed during this time period.

The research was partially funded by the University of Toronto and a Natural Sciences and Engineering Research Council of Canada Discovery Grant.